Combination roll bar and crane

ABSTRACT

A roll bar and crane device for use with vehicles such as a truck is adapted to be mounted to the truck bed. The device includes left and right leg members and a central beam extending therebetween and being selectively detachable thereto. A U-shaped boom extends over the left and right leg members when used as a roll bar. The boom, at one end, is pivotally connected to a pivot member about a horizontal axis of rotation and the pivot member is pivotally connected to one of the leg members and is pivotable about a vertical axis of rotation. A rope and pulley system is provided between the pivot member and the boom. A rope extends from the boom lift end to the pulley and rope system and to a winch that is located on and is rotatable with the pivot member. By pulling the rope via the winch, objects attached to the end of the rope are drawn up and to the boom lift end and the boom is also caused to pivot about the horizontal axis of rotation for lifting the boom lift end.

TECHNICAL FIELD

The device of the present invention generally relates to roll bars which are primarily used on vehicles such as pickup trucks. More particularly, the device of the present invention relates to a new and improved roll bar for vehicles such as pickup trucks which also functions as a crane and which is dismantleable for easy transport, is aesthetically pleasing and is constructed so as to be substantially stable and safely operable.

BACKGROUND OF THE INVENTION

Roll bars are very commonly currently used in conjunction with various vehicles and especially trucks such as pickup trucks. The roll bars are mounted close to the passenger cab and function to help prevent the crushing of the cab in the event the truck is accidentally overturned or rolled over.

More recently, roll bars have been constructed in a manner whereby they also function as a crane for selectively lifting and moving objects on and off the truck bed. In one such prior roll bar and crane device, the upper horizontal tube of the roll bar is, at one end, pivotally connected so as to turn about a vertical axis and, at its other end, is selectively detachable from the roll bar lower portion. A hydraulic cylinder is also provided and is pivotally connected to the horizontal member near the pivotable connection for selectively raising and lowering the horizontal member. Thus, the roll bar upper horizontal member is selectively pivotable about a vertical axis and is also selectively pivotable and movable vertically in a manner whereby various objects can be selectively attached at the other end of the horizontal member and selectively lifted and moved on and off the truck bed.

The roll bar and crane devices of the past however have shortcomings and drawbacks. These roll bar and crane devices are not aesthetically pleasing and, therefore, are undesirable by many typical consumers. They are also very large and bulky and are very difficult to transport to the consumer for attachment to a vehicle or truck. Prior roll bar and crane devices are also structurally inferior and are not readily, easily or safely usable as a crane.

Accordingly, a need exists for roll bar crane device which is aesthetically pleasing, easily transportable and which can be easily, readily and safely used as both a roll bar and a crane.

SUMMARY OF THE INVENTION

It is the principal object of the present invention to overcome the above-discussed disadvantages associated with prior roll bar and crane devices.

Another object of the present invention is to provide a new and improved roll bar and crane which is selectively dismantleable so that it may be easily packaged and transported and selectively re-assembled on a vehicle such as a truck.

A further object of the present invention is to provide a new and improved roll bar and crane device which is aesthetically pleasing and desirable.

A yet a further object of the present invention is to provide a new and improved roll bar and crane device which is structurally reliable and which is easily, readily and safely usable.

A further object of the present invention is to provide a crane device which is mountable and usable on a vehicle and which is relatively inexpensive to manufacture and which is durable and readily and safely usable.

The present invention is directed to a new and improved roll bar and crane device including a left leg member and a right leg member both which are adapted for attachment to the vehicle or truck bed. A central beam extends between and is connected to both the left and right leg members. A boom beam or section is generally U-shaped and, in its storage position, is connected to both the left and right leg members, extending upwardly therefrom and functioning as a common roll bar. The boom is pivotally connected at one of its ends to a pivot member and the pivot member is pivotally or rotatably connected to one of the leg members in a manner whereby the boom is selectively pivotable about a vertical axis of rotation. A hydraulic cylinder is provided and is pivotally connected between the pivot member and the boom. Accordingly, by selectively extending and retracting the hydraulic cylinder, the boom is also selectively pivotable about a horizontal axis of rotation.

The roll bar and crane device is selectively dismantleable for easy transport. In this regard, the boom is selectively detachable from the pivot member and both of the left and right leg members. The pivot member is also selectively detachable from the leg members. Further, the central beam is detachably attachable to the left and right leg members.

The boom member or beam is shaped and sized so as to preferably not exceed or extend beyond the overall shape of the vehicle cab as viewed from the vehicle front or back. Additionally, cover members are provided at each end of the boom so as effectively hide or disguise from plain view the hydraulic cylinder and other working components which are used when the device is in the crane mode. The cover members can be made of materials such as wood, polyurethane or plastic and are attached to the boom at each leg of the U-shape at least on one side of the boom and preferably, facing the back of the vehicle and placing the boom between the cover members and the vehicle cab. In another preferred embodiment, at least two cover members are provided at each end of the boom or legs in a manner whereby the boom legs are sandwiched therebetween.

The pivot member includes a cap having a cylindrical portion adapted to extend over and receive the upper portion of the left or right leg members. An inner tube having a outer diameter slightly smaller than the inner diameter of the leg member is adapted to be, at least in part, received within the leg member and extend up and through the cap. The cap cylindrical portion and inner tube thereby effectively radially sandwich the upper portion of the leg member therebetween. A pair gusset members are attached to the cap and the inner tube portion extending up and out of the cap. The boom beam or member is pivotally attached to the gusset members. The hydraulic cylinder or hydraulic extension member is pivotally attached to the gusset members at one end and to the boom at its other end.

A locking mechanism is provided at the upper portion of the leg member adjacent the pivot member for selectively locking and preventing horizontal motion of the boom about the vertical axis. The locking mechanism preferably includes a selectively retractable tongue located on the leg member and adapted to be selectively received within one of a plurality of slots on the pivot member cap. A retaining pin is further provided on the leg member and operates in conjunction with the inner tube of the pivot member for allowing pivotable motion of the pivot member but preventing the longitudinal extraction thereof from the leg member.

A manually or electrically operable winch may be provided with the roll bar and crane device and may be selectively attachable preferably either to the boom or the central beam.

The present invention is also directed to a new and improved roll bar and crane device which is operable solely with a pulley and rope mechanism and without the need for a hydraulic jack. In this embodiment, the boom is pivotally connected to a pivot member so as to be rotatable about a horizontal axis of rotation, and the pivot member is rotatably connected to one of the leg members for rotation about a vertical axis of rotation. At its other end, the boom lift end the boom is selectively detachably attachable to the other leg member so that, when the boom member lift end is attached to the other leg member, the device functions as a roll bar. At the boom pivot end, a lift arm is affixed to the boom, and gussets which are attached to the pivot member extend vertically above the lift arms. Pulleys are located on both the lift arm and the gussets and rope is provided and extends therearound.

In general, the pulleys form a tackle system. A winch is provided and is mounted on the pivot member and selectively retracts and extends the rope. From one of the pulleys located on the gussets, the rope extends out and along the boom toward the lift end whereat the rope extends over a lift pulley at the lift end of the boom. The winch which can be either a mechanical or an electrical device selectively retracts the rope for placing it in tension. This tension both lifts objects that may be attached at the end of the rope and causes the boom to pivot vertically up and down about the horizontal axis or rotation by causing the pulleys located on the boom lift arm and the gussets to be pulled together.

A restriction mechanism is also provided on one of the pulleys located on the gussets for effectively stopping the rope thereat. This causes only the pulleys to be pulled together without retracting the rope from the boom lift end pulley and thereby causing the boom to only be pivoted about the horizontal axis without pulling any object attached to the end of the rope upwardly toward the boom lift end.

In another embodiment incorporating a pulley and rope mechanism, the boom member is pivotally attached to the gussets of the pivot member at a location between the boom lift end and the boom pivot end. Pulleys are provided on the boom pivot end and also at the lower portion of the gussets and thereby providing a tackle system therebetween. A winch on the pivot member selectively retracts and extends the rope thereby selectively causing the boom pivot end to be pulled downwardly toward the gussets lower portion and thereby also causing the boom to pivot about the horizontal axis of rotation and the boom lift end to be selectively moved vertically up and down. The rope extends from one of the pulleys at the boom pivot end through the boom tubular member and out of the boom lift end whereat the rope may be attached to objects which are to be lifted.

In one form thereof, the present invention is directed to a crane device including a boom member having a lifting end and a pivot end. The boom member pivot end is adapted to be mounted to a vehicle and to be selectively rotatable about both a vertical axis of rotation and a horizontal axis of rotation. A pulley and rope mechanism is provided for selectively pivoting the boom member about the horizontal axis of rotation and selectively moving the boom member lifting end vertically up and down. In one embodiment, a lift arm is affixed to the boom and the pulley and rope mechanism apply a force to the lift arm for selectively pivoting the boom member about the horizontal axis of rotation. A gusset is provided and is rotatable with the boom about the vertical axis of rotation and the gusset extends vertically above the lift arm. A pulley is provided on the lift arm and another pulley is provided on the gusset and rope extends therearound. A winch is provided on and is rotatable with the boom about the vertical axis of rotation. The winch selectively retracts and extends the rope for selectively pulling the pulleys and the lift arm and gusset together and causing pivotal motion of the boom about the horizontal axis of rotation. In another embodiment, the invention is directed to a crane device wherein the boom member is pivotally attached to the pivot member at a location between the boom lift end and the boom pivot end for rotation about the horizontal axis thereat. A pulley is located on the boom pivot end and another pulley is located on the pivot member and rope extends therearound for selectively pulling the boom pivot end and the pivot member together and thereby causing the boom to pivot about the horizontal axis of rotation. A winch is located on the pivot member for selectively retracting and extending the rope around the pulleys. The pulleys on the boom pivot end are located such that the rope extending over one of those pulleys extends through the tubular boom member and out at the boom lift end whereat the rope may be attached to objects that are to be lifted by the crane device.

BRIEF DESCRIPTION OF THE DRAWINGS

The above-mentioned and other features and objects of this invention and the manner of obtaining them will become more apparent and the invention itself will be better understood by reference to the following description of embodiments of the invention taken in conjunction with the accompanying drawings wherein:

FIG. 1 is a rear elevation view of a roll bar and crane device constructed in accordance with the principles of the present invention and shown as would typically be seen from a rear of a vehicle upon which the device is adapted to be used;

FIG. 2 is an exploded perspective view of the roll bar and crane device shown in FIG. 1 and showing the device as would be selectively dismantleable;

FIG. 3 is a side elevation view of the roll bar and crane device shown in FIG. 1 but with a modified leg structure and without any cover members thereon;

FIG. 4 is an enlarged partial rear elevation view of the roll bar and crane device shown in FIG. 3 and wherein the boom is adapted to be pivotable about the left leg member;

FIG. 5 is a partial cross-sectional view of the roll bar and crane device shown in FIG. 1 taken along line 5--5;

FIG. 6 is a partial cross-sectional view of the roll bar and crane device shown in FIG. 4 taken along line 6--6;

FIG. 7 is a top plan view of the pivot member shown in FIG. 6 without the boom;

FIG. 8a is a partial side elevation view of the roll bar and crane device shown in FIG. 3 and depicting the pivot member and cap along with the locking mechanism for selectively locking and preventing movement of the boom about the vertical axis;

FIG. 8b is a cross-sectional view of the portion of the device shown in FIG. 8a taken along line 8b--8b;

FIG. 9 is a top plan view of the roll bar and crane device shown in FIG. 3 and showing possible motion of the crane about the vertical axis in single dash lines and a vehicle upon which the device may be mounted in double-single dash lines;

FIG. 10 is a rear elevation view of the device shown in FIG. 9 and showing the boom movable in various different positions in dash lines and a vehicle upon which the device may be mounted in double-single dash lines;

FIG. 11 is a perspective view of the roll bar and crane device shown in FIG. 1 mounted on a vehicle and wherein a winch is provided on the central beam and shown being used for moving a log;

FIG. 12 is a perspective elevation view similar to FIG. 11 but wherein the device has been placed in the crane position and the winch rope extends through the crane eyelet;

FIG. 13 is a rear elevation view of a roll bar and crane device similar to that of FIG. 1 but incorporating slightly different leg members and covers sandwiching the left and right legs of the U-shaped boom member;

FIG. 14 is a side elevation view of the roll bar and crane device shown in FIG. 13 and showing the front and rear cover members sandwiching and covering a portion of the boom;

FIG. 15 is a top plan view of the roll bar and crane device shown in FIGS. 13 and 14;

FIG. 16 is a side elevation view of yet another embodiment of a roll bar and crane device constructed in accordance with the principles of the present invention;

FIG. 17 is a partial rear elevation view of a roll bar and crane device incorporating a pulley and rope system for causing pivotal motion of the boom about the horizontal axis of rotation and lifting objects and which is constructed in accordance with the principles of the present invention;

FIG. 18 is a partial rear elevation view of the roll bar and crane device shown in FIG. 17 and wherein the boom is shown pivoted upwardly;

FIG. 19 is a partial side elevation view of the roll bar and crane device shown in FIG. 17 and showing the pulley and rope mechanism;

FIG. 20 is a partial rear elevation view of another embodiment of a roll bar and crane device incorporating a pulley and rope system constructed in accordance with the principles of the present invention; and,

FIG. 21 is a partial rear elevation view of the roll bar and crane device shown in FIG. 20 and showing the boom pivoted upwardly.

Corresponding reference characters indicate corresponding parts throughout the several views of the drawings.

The exemplifications set out herein illustrate preferred embodiments of the invention in one form thereof and such exemplifications are not to be construed as limiting the scope of the disclosure or the scope of the invention in any manner.

DETAIL DESCRIPTION OF SPECIFIC EMBODIMENTS

Referring initially to FIG. 1, a roll bar and crane device is generally designated by the numeral 10 and is illustrated and shown fully assembled and in the roll bar position. The device 10 includes a left leg member 12 and a right leg member 14 separated by a central beam 16 extending therebetween. Each of the left and right leg members 12 and 14 include a vertical leg 18 with a pad or foot 20 at the lower end thereof. Each of the left and right leg members 12 and 14 also include a bracing leg 22 which, at their upper ends are affixed to the upper ends of vertical legs 18 and at their lower ends include a pad or foot 24.

Both vertical legs 18 and bracing legs 22 are made of steel tubular sections which are cut to length and bent as may be needed. The bracing legs 22 are affixed to the vertical legs 18 by welding as shown or with other suitable means. Pads 20 and 24 are preferably cut from plate steel material and are welded or otherwise affixed by suitable means to the respective lower ends of vertical legs 18 and bracing legs 24. Pads 20 and 24 are provided with holes (not shown) or other means by which they may be ridgedly affixed to a vehicle bed 26 and/or a vehicle wheel well 28 as, for example, shown in FIG. 3. It is noted that in FIG. 3 a typical vehicle such as a pickup truck is shown in double-single dash lines including a cab 30, wheels 32, pickup bed walls 34 along with the pickup bed 26 and wheel wells 28.

As best seen in FIG. 2, left and right leg members 12 and 14 are each further provided with cylindrical connecting members 36. Cylindrical connecting members 36 are also made of steel tube material and are affixed as shown generally to the upper portion of each of the vertical leg members 18 in a position which is generally perpendicular to or 90 degrees from the bracing legs 22. Below cylindrical connecting members 36, each of the left and right leg members 12 and 14 are provided with leg attachment plates 38 preferably made of plate steel. At each of the left and right legs 12 and 14, the leg attachment plates are affixed by welding or other suitable means to the cylindrical connecting member 36. The cylindrical connecting members 36 and leg attachment plates 38 are also affixed to the vertical legs 22 by welding or other suitable means. It is noted that, as best seen in FIG. 5, the leg attachment plates 38 are located slightly to the left or right of a plane extending centrally through both the cylindrical connecting member 36 and vertical legs 18. Holes 40 are provided and extend through cylindrical connecting members 36 and holes 42 are provided and extend through the leg attachment plates 38.

Similar to the leg members 12 and 14, central beam 16 is made of steel tube material having a sufficient diameter and thickness and being cut to the proper length. At each end of the central beam 16, reduced diameter portions 44 are provided having an outer diameter slightly smaller than the inner diameter of cylindrical connecting members 36 and, further, having a longitudinal length which is adapted to be substantially totally received within the cylindrical connecting members 36. Holes 46 are also provided on the reduced diameter portion 44 and are located such that when the reduced diameter portions 44 are fully received within the cylindrical connecting members 36, holes 44 and holes 40 become aligned with respect one another.

At each end of central beam 16, there are also provided ear brace members 48 which are made of plate steel material and which are generally triangularly shaped. Ear brace members 48 are affixed to the central beam 16 along a portion of one leg of the triangularly shape thereof as shown by welding or other suitable means. Along the other leg of the ear brace member 48 triangularly shape, a plurality of holes 50 are provided and are located such that when the reduced diameter portions 44 are fully received within the cylindrical connecting members 36, the respective plates 48 are located adjacent the leg attachment plates 38 as shown in FIG. 5 and, further, the holes 50 of ear brace members 48 are aligned with the holes 42 of leg attachment plates 38.

As can now be appreciated, the central beam 16 is selectively detachably attachable to the left and right leg members 12 and 14. Furthermore, for attachment of the central beam 16 to the respective left and right leg members 12 and 14, the respective ends of the central beam 16 are joined with the respective left and right leg members 12 and 14 by placing the reduced diameter portions 44 within the cylindrical connecting members 36 and the ear brace members 48 adjacent the leg attachment plates 38. In this position, the leg members 12 and 14 are secured to the central beam 16 with bolt and nut combinations 52 received through aligned holes 42 and 50 and nut bolt combinations 54 received through aligned holes 40 and 46. It is noted that, similar to leg attachment plates 38, the ear brace members 48 are located slightly to the left or right of a plane extending centrally along both the cylindrical connecting members 36 and vertical legs 18.

Although bracing legs 22 are shown in the drawings as being welded to the vertical legs 18, it is contemplated that in a preferred embodiment the bracing legs 22 are also selectively detachably attachable to the vertical legs 18 so that different size and shape bracing legs 22 can be selectively provided and used for adapting the device 10 to be used with various different vehicles and truck beds. The innerconnection between bracing legs 22 and vertical legs 18 can be similar to the innerconnection between central beam 16 and vertical legs 18 or, in the alternative, the innerconnection between bracing legs 22 and vertical legs 18 can be made only with, for example, a cylindrical connecting member or a sleeve like member 36 and without attachment plates and ear brace members.

Referring now more particularly to FIGS. 2, 4 and 6-8b, the preferred roll bar and crane device includes a pivot member generally designated by the numeral 56. Pivot member 56 includes inner tube section 58 also made of steel tubular material and cut to length. At its upper end, inner tube section 58 is closed with a disk portion 60. As best seen in FIGS. 6 and 8b, inner tube member 58 has an outer diameter which is slightly smaller than the inner diameter of a vertical leg 18 of a left or right leg member 12 or 14. Accordingly, inner tube member 58 is freely rotatable about a vertical axis 62 within the vertical leg 18.

At the upper end of pivot member 56 there is also provided a cap 64 including a cylindrical portion 66. Cap 64 is provided with a hole 68 through which the inner tube section 58 extends therethrough. Cap 64 is also made of steel and inner tube member 58 and cap 64 are welded together as best seen in FIGS. 6 and 8b thereby forming a cylindrical channel 70 therebetween. The inner diameter of cylindrical portion 66 is slightly larger than the outer diameter of vertical leg 18 and the upper portion of vertical leg 18 is received within the channel 70. The upper annular surface or rim abuts 72 and slides on the annular surface 74 located on the cap and between the inner tube section 58 and the cylindrical portion 66. As can be appreciated, annular surfaces 72 and 74 are vertically bearing so as to transfer vertical forces downwardly from the cap 64 to the vertical leg 18. Grease and/or other lubricating oil can be placed within and between channel 70 for decreasing the friction between the components as the cap 64 and inner tube section 58 are rotated about the vertical axis 62 and over the vertical leg 18.

Alternatively and more preferably, the thrust or vertical downward forces and pivotal motion about vertical axis 62 is more easily accomplished with structure such as that shown at the bottom of vertical leg 18 in FIG. 4. Here, the inner tube section 58 is provided with a cap or an otherwise disk surface 59 at its lower end thereof. Below cap 59 there is provided a thrust bearing, washer or disk 61. Thrust bearing 61 can be made of Teflon or other similar structurally ridged low friction materials. Thrust bearing 61, in combination with the lower portion of inner tube section 58, thus allows the pivot member 56 to more easily and freely rotate about the vertical axis 62.

As more fully described hereinbelow, a crane boom 76 which also functions as the upper part of the roll bar is pivotally connected to the pivot member 56 and is rotatable along with pivot member 56 about vertical axis of rotation 62. In this regard, a locking mechanism generally designated by the numeral 78 is provided and functions to selectively lock the pivot member 56 and boom 76 in a plurality of distinct angular positions about vertical axis 62. Locking mechanism 78 includes a generally square channel 80 also made of steel and affixed to the vertical leg 18 by welding or other suitable means. Square channel 80 is open at its upper end and is closed at its lower end. Square channel 80 includes an elongate slot 82. A tongue member 84 is slidingly received within the square channel 80 and a compression spring 86 is located within and at the lower end of square channel 80 for biasing or pushing the tongue member 84 vertically upwardly. As best seen in FIG. 8a, compression spring 86 pushes tongue member 84 vertically upwardly and within one of a plurality of slots 87 located in the cylindrical portion 66 of cap 64.

As can be appreciated, when tongue member 84 is in its upper position as shown in FIGS. 8a and 8b and is received within a channel 87, rotation of the pivot member 56 and boom 76 about vertical axis 62 is effectively prevented. For allowing such pivotal motion, a threaded rod 88 is provided and is affixed to the tongue member 84 and extends out of the square channel 80 through the elongate slot 82. A knob 90 having a threaded bore is threadingly received on threaded rod 88 and is selectively threadingly turned for frictionally engaging and sandwiching the outer wall of square channel 80 between tongue member 84 and knob 90. As should now be evident, by first turning and loosening knob 90, the knob 90 and tongue member 84 can be pushed and forced downwardly against the force of compression spring 86 and out of the slots 87 of cylindrical portion 66. By turning and tightening knob 90 while tongue 84 is in its lowermost position, tongue 84 can be retained thereat and thereby allowing the pivot member 56 and boom 76 to freely rotate about the vertical axis of rotation 62. However, by turning and loosening knob 90 compression spring 86 again forces tongue member 84 upwardly and into one of the plurality of slots 87 thereby again stopping or limiting pivotal motion of the pivot member 56 and boom 76 about the vertical axis of rotation.

As best seen in FIG. 2, at the lower end of inner tube section 58, a horizontal slot 92 is provided and is adapted to receive a bolt 94 therethrough after inner tube member 58 has been fully inserted within the vertical leg 18. A threaded hole (not shown) is located through vertical leg 18 which is aligned with horizontal slot 92 when inner tube member 58 is fully inserted into vertical leg 18. Bolt 94 is threadingly received through the threaded hole of vertical leg 18 and extends through the horizontal slot 92 of inner tube section 58.

At the upper end of pivot member 56, a pair of gussets 96 are provided generally over cap 64. Gussets 96 are preferably made of plate steel material and are affixed to cap 64 by welding or other suitable means. For additional strength, gussets 96 are also affixed to the upper end of inner tube section 58 extending up and through the cap 64. In this regard, a pair of spacers 98 are located between each of the gussets 96 and the upper portion of inner tube member 58 and, preferably, gussets 96, spacers 98 and the upper end of inner tube member 58 are affixed to one another by welding or other suitable means. It is noted that spacers 98 are provided for locating gussets 96 apart from one another at a desired distance and different size spacers may be incorporated or the spacers themselves can be totally eliminated if desired.

The crane boom 76 is generally U-shaped and has an inner leg 100 and an outer leg 102. Crane boom 76 is also made of steel tubing material and is formed preferably by bending the steel tubing for forming the inner and outer legs 100 and 102. The end of inner leg 100 is partially located between gussets 96 and includes a hole which is aligned with holes at the upper end of gussets 96 and through which a bolt 104 extends. Bolt 104 is secured and is retained in place by a nut 106. As should now be evident, the crane boom 76 is pivotable about bolt 104 and about a horizontal axis of rotation 108.

The pivotal motion and the lifting of crane boom 76 is controlled by and accomplished via a hydraulic jack or cylinder 108 pivotally connected between the upper portion of pivot member 56 and crane boom 76. Hydraulic jack 108 includes a fluid pumping mechanism 110 including a pump handle receiving cylinder 112, a pressure release valve control port 114, and a cylinder 116 which is selectively extendable and retractable. A pump handle (not shown) is received in a known and customary manner within pump handle receiving cylinder 112 and is selectively oscillated for pumping the hydraulic jack 108 and causing the cylinder 116 to be extended. A valve control handle 118 is received in and coupled with the valve control port 114 in a manner whereby the turning of handle 118 selectively releases the pressure within hydraulic jack 108 and causes the cylinder 116 to be retracted.

The base 120 of hydraulic jack 108 is located between a portion of the gussets 96 and is provided with a hole which is aligned with holes in the gussets 96 and which receive therethrough a nut and bolt combination 122. Accordingly, hydraulic jack 108 may pivot about the nut and bolt combination 122. At the other end of hydraulic jack 108, cylinder 116 is pivotally connected to lift gussets 124 through the use of a nut and bolt combination 126. Lift gussets 124 are generally triangularly shaped are preferably made of plate steel and are affixed to the crane boom 76 by welding or other suitable means. In this regard, the upper part of cylinder 116 is provided with a hole which is aligned with holes located on the lift gussets 124 and the nut and bolt combination 126 is received therethrough for securing and allowing pivotal motion between cylinder 116 and lift gussets 124.

In yet another alternative preferred embodiment, as shown in FIG. 16, the horizontal axis of rotation is located on the crane boom 76. In this embodiment, the pivot member 56 is constructed with one of the boom legs, here the outer leg 102, directly affixed to the gussets 96. Outer leg 102 is affixed to both gussets 96 and cap 64 by welding or other suitable means. At its upper end the outer leg 102 is cut away from the crane boom 76 and pivot gussets 125 are provided on both sides of the outer leg 102 and crane boom 76. Pivot gussets 125 are affixed to the crane boom 76 by welding or other suitable means. Pivot gussets 125 are also pivotally connected to the hydraulic cylinder 116 via nut and bolt combination 126 and are also pivotally connected to outer leg 102 via a nut and bolt combination 123. As can be appreciated, in this embodiment the pivot member 56 is effectively lengthened and the horizontal axis of rotation of the crane boom 76 extends coaxially through the nut and bolt combination 123. Thus, by selectively extending or retracting the cylinder 116 of hydraulic jack 108, crane boom 76 is selectively pivoted about nut and bolt combination 123.

The outer leg 102 of the crane boom 76 is provided with an eyelet 128 which is received within the vertical leg 18 of the left leg member 12 whenever the crane boom 76 is placed in its roll bar position as shown in FIG. 1. Additionally, the outer leg 102 of crane boom 76 is selectively secured to the vertical leg 18 of left leg member 12 by a toggle latch 103.

From the foregoing, it should now be evident that crane boom 76 can be placed in a roll bar position as shown in FIG. 1 or, in the alternative, the outer leg 102 can be detached from the left leg member 12 for using the crane boom 76 for lifting objects as may be needed or desired. The crane boom 76 can be placed in various different positions as may be needed and the versatility and some of the various positions are depicted and shown in FIGS. 9 and 10 in dash lines.

Referring now to FIGS. 2, 11 and 12 a winch 130 is provided and is located and mounted either on the crane boom 76 or the central beam 16. Winch 130 is preferably operated by an electric motor although is it also contemplated that hand operated winches can also be used. The winch 130 is affixed to the central beam 16 or crane boom 76 by welding, bolts, and/or with other suitable means. Winch 130 includes a rope or steel cable 132 which is extendable and selectively retractable in a known and customary manner. As shown in FIG. 11, the rope or steel cable 132 can be extended and used while the roll bar and crane device 10 is in its roll bar position. In the alternative, while the roll bar and crane 10 is used as a crane, the rope or steel cable 132 can be extended through eyelet 128 for pulling and lifting objects such as a log 134.

So as to provide a more aesthetically pleasing roll bar and crane device and provide for greater safety during operation of the device as a crane, as shown in FIGS. 1 and 2, there are provided left and right covers 136 and 138. Covers 136 and 138 are shaped generally as mirror images of one another and having curveliner outer portion 140 having a shape quite similar that of crane boom 76 near its respective inner and outer legs 100 and 102. Covers 136 and 138 also include an inner arm portion 142. An opening 144 is provided and is located between the curvelinear outer portions 140 and the inner arm portions 142. Left and right covers 136 and 138 are made of wood, polyurethane, plastic or other suitable materials and are affixed to one side of the roll bar and crane 76 as best shown in FIG. 1. The covers 136 and 138 are affixed by fasteners such as screws, adhesives and/or other suitable means. The inner arm portion 142 of right cover 138 functions to generally cover or disguise the hydraulic jack 108 from plain view while the inner arm portion 142 of the left cover 136 functions only for aesthetics with respect to the overall appearance of the roll bar and crane device 10.

The inner arm portion 142 of the right cover 138 is also provided with a slot 146 wherethrough the valve control handle 118 extends for innerconnection within the valve control port 114. It is noted that the pump handle (not shown) is also inserted through the slot 146 when placing within the pump handle receiving cylinder 112 of the hydraulic jack 108. The slot 146 is located and is sized so that the pump handle and the valve control handle 118 extend through the slot 146 and move therein relative to the motion of cover 138 as the cylinder 116 is extended and retracted. In the alternative, hydraulic jack 108 can be provided with the fluid pumping mechanism 110 and the pump handle receiving cylinder 112 on the opposite side of the hydraulic jack 108 shown in FIG. 2. In such an embodiment, only the valve control handle 118 extends through the slot 146 and the pump handle is inserted into the pump handle receiving cylinder 112 through the cover opening 144. This embodiment is best seen in FIG. 1 where the pump handle receiving cylinder 112 is slightly visible through the cover opening 144.

An additional cover member 148, also made of the same materials as the covers 136 and 138, is also provided but is generally kidney shaped. Cover 148 is affixed to the upper portion of pivot member 56, namely, to one of the gusset members 96 or cap 64 with fasteners such as screws, adhesives and/or other suitable means. Thus, cover 148 remains stationary while cover 138 and boom 76 may be pivoted.

In an alternative embodiment as shown in FIGS. 13, 14 and 15, a left forward cover 150 is provided on the other side of crane boom 76 and the left cover 136. Similarly, a right forward cover 152 is provided on the other side of crane boom 76 and the right cover 138. Left forward cover 150 is essentially a mirror image of left cover 136 and right forward cover 152 is essentially a mirror image of right cover 138. In this embodiment, however, covers 136, 138, 150 and 152 are most preferably made of plastic by injection molding or vacuum forming and/or forming of polyurethane. When assembled to the crane boom 76, covers 136 and 150 sandwich and enclose at least a part of the outer leg 102, and covers 138 and 152 sandwich and enclose at least a portion of the inner leg 100. Here, the covers are affixed to the crane boom 76 and/or the opposing cover members with fasteners such as screws, adhesives and other suitable means.

Finally, it is noted that the overall shape of the crane boom 76 and the covers 136, 138, 150 and 152 are shaped as generally shown, similar to, and at least somewhat smaller than the vehicle cab on the left and right thereof.

In FIG. 9 there are depicted pads 20 at the lower end of vertical legs 18 of a substantially larger size. These pads 20 provide a greater surface area and distribute the forces of the roll bar and crane device 10 over a larger surface area of the vehicle bed 26.

Referring now to FIGS. 17-21, the embodiments shown of the roll bar and crane device 10 incorporate a rope and pulley system generally designated by numeral 200 which is used for both rotating the boom 76 about the horizontal axis of rotation and lifting objects. In the embodiment shown in FIGS. 17-19, the boom leg 100 is pivotally connected to gussets 202 via a nut and bolt combination 204. Gussets 202, similar to the embodiment shown in FIG. 2, are affixed to cap 64 and form a part of the pivot member 56. Essentially, the pair of gussets 202 sandwich the leg 100 of boom 76 and the bolt of the nut and bolt combination 204 extends through aligned holes in both of the gussets 202 and the boom leg 100. Boom 76, is thus, rotatable about a horizontal axis of rotation which is coaxial with the nut and bolt combination 204. Gussets 202 are preferably made of plate steel and are attached to cap 64 by welding or other suitable means.

At the gussets upper end 206, a nut and bolt combination or pulley shaft 208 extends between the gussets 202 generally perpendicularly. Although a nut and bolt combination is shown and depicted, it is contemplated that a simple shaft can be located thereat and welded or otherwise affixed thereat by other suitable means. Pulleys 210 and 212 are rotatably mounted on the pulley shaft 208 so as to rotate therearound and around the horizontal axis of rotation 108.

At the lowermost end of leg 100, there are provided a pair of lift arms 214 which are affixed to the leg 100 of boom 76 and extend away therefrom as shown. Lift arms 214 are also preferably made of plate steel and are affixed to the leg 100 by welding or other suitable means. Generally, at the outer end of the lift arms 214 furthest away from the leg 100, there is also provided a nut and bolt combination or a pulley shaft 216 similar to the pulley shaft 208. Here, pulleys 218 and 220 are rotatably mounted on the pulley shaft 216 and are freely rotatable therearound.

A winch which is diagrammatically depicted by the numeral 222 is mounted on the pivot member 56 so as to be rotatable therewith about the vertical axis of rotation 62. Preferably, a platform 224 made of plate steel is affixed to the cap 64 by welding of other suitable means and the winch 222 is mounted or otherwise affixed on platform 224. Winch 222 is preferably electrically driven, although a hand operated winch would also suffice.

At the lift end 226 of boom 76, which preferably but not necessary includes the outer leg 102, there is provided a pulley 228 which is rotatably connected to the boom lift end 226 via a nut and bolt combination or pulley shaft 230. The rope or braided steel cable 132 extends over pulley 228 and through a slot or hole (not shown) on the boom lift end leg 102 and back toward the rope and pulley system 200. The rope 132, as best seen in FIGS. 17-19 extends out of the winch 222 and up and over pulley 218, pulley 210, pulley 220 and finally over pulley 212 and out toward the boom lift end 226 and pulley 228. Accordingly, the rope 132 is selectively withdrawn or extended from the winch 222 and an object to be lifted is attached to the end thereof beyond pulley 228.

Winch 222 is used for retracting or pulling the rope into the winch and placing the rope 132 in tension. This tension provides a pulling force between pulley shafts 208 and 216 and thereby causing the lift arm 214 to be pivoted about the horizontal axis of rotation 108 and nut and bolt combination 204 and thereby causing the boom 76 to be lifted as shown in FIG. 18. It is noted that the pulleys 210, 212, 218 and 220 form a tackle system for multiplying the effective pulling force between the pulley shafts 208 and 216. Further, additional pulleys may be added on pulley shafts 208 and 216 and the rope 132 may also be wrapped therearound for further multiplying the effective pulling force.

As should now be appreciated and be evident to one skilled in the art, various factors can be set and/or modified as may be needed for varying and providing the necessary tension for lifting objects via rope 132 and causing the boom 76 to be pivoted upwardly about the horizontal axis or rotation 108. These include, for example, the length of the boom between pulley shaft 230 and nut and bolt combination 204, the length between the nut and bolt combination 204 and the pulley shaft 216, the number of pulleys on the pulley shafts 208 and 216, the potential tension that may be created by winch 222, and the various frictional forces between the various moving components. Further yet, depending on the weight of the object that is to be attached at the end of rope 132 and lifted and these various factors, the object will either first be pulled up to the lift end 226 or the boom 76 will be caused to pivot upwardly about the horizontal axis of rotation 108.

So as to first cause the boom 76 to be pivoted about the horizontal axis of rotation 108, a restriction mechanism is provided on pulley 212 for effectively restricting or preventing the rope 132 from moving thereover. In this fashion, tension placed on the rope 132 by winch 222 is selectively prevented from being pulled over pulley 228 and pulley 212 so that the rope and pulley system 200 function to only pull together pulley shafts 208 and 216 and only cause boom 76 to be lifted and pivoted upwardly about the horizontal axis of rotation 108.

In FIG. 19, the restriction mechanism includes an outer U-shaped member 232 secured to bolt 208 and pulley 212 is located within the U-shaped member 232. Outer U-shaped member 232 can be rotatable with bolt 208 as shown or affixed to one or both of the gussets 202 (not shown). A bolt 234 extends through a threaded hole in the outer U-shaped member 232 and forces the inner U-shaped member 236 and the friction member 238 toward pulley 212. Accordingly, the rope 132 is sandwiched between the friction member 238 and the pulley 212 and is thereby effectively prevented from slipping over pulley 212. Friction member 238 is made of a rubber or other suitable material for providing the necessary clamping frictional force but not damaging the rope 132. A spring 240 may be provided around bolt 234 and between the inner U-shaped member 236 and the outer U-shaped member 232.

Referring now to the embodiment shown in FIGS. 20 and 21, a pair of gussets 242 are provided and are affixed to the pivot member 56 quite similar to gussets 202. Gussets 242 extend upwardly and have an upper end 244 generally in line with the boom 76. Boom 76 is pivotally attached to gussets 242 via a nut and bolt combination 246 at a location on the boom 76 between the lift end 226 and the boom other end or pivot end 248. Thus, the horizontal axis of rotation in this embodiment extends through and is coaxial with the nut and bolt combination 246.

The pivot end 248 of boom 76 is generally open so as to allow access to the interior of that tube member and the pulleys 210 and 212 are rotatably mounted near that opening so as to rotate about a nut and bolt combination or pulley shaft 250. The pulleys 218 and 220 in this embodiment are rotatably mounted on a nut and bolt combination or pulley shaft 252 located on and extending between the gussets 242. The winch 222 is mounted on the platform 224 which, along with the gussets 242, are part of the pivot member 56 and are adapted to rotate about the vertical axis of rotation 62. The rope 132 extending out of winch 222 extends up and over pulley 210, pulley 220 located on pulley shaft 252 (not shown), pulley 212 located on pulley shaft 250 (not shown) and then through the boom 76 toward the lift end 226. At the lift end 226 there is also provided a pulley 254 rotatably mounted on nut and bolt combination or pulley shaft 256 which is located substantially at the bend between leg 102 and the horizontal portion of boom 76.

In operation of the embodiment shown FIGS. 20 and 21, retracting or pulling the rope 132 by winch 222 after an object has been attached at the end of rope 132 creates a pulling force between pulley shafts 250 and 252 thereby causing boom 76 to pivot about the horizontal axis of rotation at nut and bolt combination 246 and lifting the lift end 226 as depicted in FIG. 21. Similarly in this embodiment, various factors must be considered and can be modified or set as needed by one skilled in the art for lifting various objects and causing the lift end 226 to be first lifted or the object attached to the end of rope 132 to be first pulled up toward the lift end 226. These factors include, for example, the distance between pulley shaft 230 and nut and bolt combination 246, the distance between the nut bolt combination 246 and pulley shaft 250, the location of pulley shaft 252 on gussets 242, the number of pulleys located on the pulley shafts 250 and 252, the weight of the object that is being lifted, and the tension that can be created by winch 222.

It is further noted that, with respect to the embodiments shown in FIGS. 17-21, the lift end 226 is also selectively detachably attachable to the other of the roll bar and crane device legs 18 (not shown) similar to the embodiments shown in FIGS. 1-16. For example, a latch 103 or other similar mechanical latching device can be incorporated for selectively detachably attaching the lift end 226 to the other vertical leg 18 of the roll bar and crane device. Also, the cover members 136 and 138 can be incorporated with the embodiments of FIGS. 16-21 for hiding from plain view the rope and pulley system 200 and the other components and making these roll bar and crane devices more aesthetically pleasing and safe to use.

The embodiments of FIGS. 17-21 as should now be appreciated incorporate only a single winch and a rope and pulley system which together function to both pull objects to be lifted up to the lifting end 226 of boom 76 and, also, to cause the pivotal motion of boom 76 about the horizontal axis of rotation. This is accomplished without any need for a hydraulic jack and is, thus, relatively cost effective while providing a reliable and safe roll bar and crane device.

While the invention has been described as having specific embodiments, it will be understood that it is capable of further modifications. This application is therefore, intended to cover any variations, uses, or adaptations of the invention following the present disclosure as come within known or customary practice in the art to which this invention pertains and fall within the limits of the appended claims. 

What is claimed is:
 1. A roll bar and crane device comprising:a boom member having a lifting end and a pivot end; said boom member pivot end adapted to be mounted to a vehicle and to be selectively rotatable about both a vertical axis of rotation and horizontal axis of rotation;wherein said boom member lifting end is selectively detachably attachable to the vehicle whereby, when said boom member lift end is attached to the vehicle, said device functions as a roll bar; and, pulley and rope means for selectively pivoting said boom member about said horizontal axis of rotation and selectively moving said boom member lifting end vertically up and down.
 2. The device of claim 1 further comprising a lift arm affixed to said boom member, said pulley and rope means applying a force on said lift arm for selectively pivoting said boom member about said horizontal axis of rotation.
 3. The device of claim 2 further comprising a gusset rotatable with said boom member about said vertical axis of rotation and extending vertically above said lift arm, said pulley and rope means including a pulley on said lift arm and a pulley on said gusset, said rope extending around said pulleys for selectively pulling together said lift arm and said gusset thereby pivoting said boom member about said horizontal axis of rotation and selectively moving said boom member lifting end vertically up and down.
 4. The device of claim 3 further comprising a pulley on said boom member lift end, said rope further extending over said boom lift end pulley for attaching to and lifting objects.
 5. The device of claim 4 further comprising a winch rotatable with said boom member about said vertical axis of rotation, said winch selectively retracting and extending said rope, whereby said boom member is selectively pivoted about said horizontal axis of rotation and objects may be lifted by said rope and boom member.
 6. The device of claim 5 further comprising a pivot member adapted to be mounted to a vehicle and be rotatable about said vertical axis of rotation, said boom member pivotally attached to said pivot member so as to be rotatable about said horizontal axis of rotation and wherein said gusset and said winch are mounted on said pivot member and are rotatable therewith.
 7. The device of claim 6 further comprising rope restriction means for selectively restricting movement of said rope over said pulley located on said gusset.
 8. The device of claim 3 further comprising a winch rotatable with said boom member about said vertical axis of rotation, said winch selectively retracting and extending said rope, whereby said boom member is selectively pivoted about said horizontal axis of rotation.
 9. The device of claim 8 further comprising rope restriction means for selectively restricting movement of said rope over said pulley located on said gusset.
 10. The device of claim 1 further comprising a pivot member adapted to be mounted to a vehicle and to be rotatable about said vertical axis of rotation, said boom member pivotally attached to said pivot member at a location between said boom lift end and said boom member pivot end for rotating about said horizontal axis thereat, said pulley and rope means extending between said pivot member and said boom member pivot end.
 11. The device of claim 10 wherein said pulley and rope means includes a pulley on said pivot member and a pulley on said boom member pivot end and rope extending therearound for selectively pulling together said boom member pivot end and said pivot member and thereby rotating said boom member about said horizontal axis of rotation and selectively moving said boom member lift end vertically up and down.
 12. The device of claim 11 further comprising a pulley on said boom member lift end, said rope further extending over said boom member lift end pulley for attaching to and lifting objects.
 13. The device of claim 12 further comprising a winch on said pivot member and being rotatable therewith, said winch selectively retracting and extending said rope, whereby said boom member is pivoted about said horizontal axis of rotation and objects may be lifted by said rope and boom member.
 14. The device of claim 13 further comprising rope restriction means for selectively restricting movement of said rope over said pulley on said boom member pivot end.
 15. The device of claim 11 further comprising a winch on said pivot member and being rotatable therewith, said winch selectively retracting and extending said rope, whereby said boom member is pivoted about said horizontal axis of rotation and objects may be lifted by said rope and boom member.
 16. A roll bar and crane device comprising:a right leg member and a left leg member which are attachable at the right and left hand sides respectively defined by a vehicle; a boom member having a lifting end and a pivot end, said lifting end being selectively detachably attachable to the one leg member, and said pivot end being pivotally mounted to the other of the leg members to selectively pivot about both a vertical axis of rotation and a horizontal axis of rotation, the arrangement being such that the device is operable as a crane when the lifting end is detached from the one leg member allowing the boom member to pivot about the vertical and horizontal axis of rotation, and the device operating as a roll bar when the lifting end is attached to the one leg member in use causing the boom member to extend transversely across the vehicle from one leg member to the other; and, pulley and rope means for selectively pivoting the boom member lifting end about the horizontal axis of rotation and selectively moving said boom member lifting end vertically up and down and for selectively pulling objects to the lifting end.
 17. The device of claim 16 further comprising a lift arm affixed to said boom member, said pulley and rope means applying a force on said lift arm for selectively pivoting said boom member about said horizontal axis of rotation.
 18. The device of claim 17 further comprising a gusset rotatable with said boom member about said vertical axis of rotation and extending vertically above said lift arm, said pulley and rope means including a pulley on said lift arm and a pulley on said gusset, said rope extending around said pulleys for selectively pulling together said lift arm and said gusset thereby pivoting said boom member about said horizontal axis of rotation and selectively moving said boom member lifting end vertically up and down.
 19. The device of claim 16 further comprising a pivot member adapted to be mounted to a leg member and to be rotatable about said vertical axis of rotation, said boom member pivotally attached to said pivot member at a location between said boom member lift end and said boom member pivot end for rotating about said horizontal axis thereat, said pulley and rope means extending between said pivot member and said boom member pivot end. 